JP2021133084A - racket - Google Patents

Abstract

To provide a racket excellent in a balance in various performance.SOLUTION: A face of a racket has a plurality of first vertical threads 30a, a plurality of second vertical threads 30b, and a plurality of horizontal threads. The first vertical threads 30a and the second vertical threads 30b are alternatively arranged from the center of the face to the outside in a width direction. The first vertical threads 30a have material different from material of the second vertical threads 30b. The first vertical threads 30a may have tension different from tension of the second vertical threads 30b. A ratio (N1/N2) of the number N1 of the first vertical threads to the number N2 of the second vertical threads is preferably 2/8 or more and 8/2 or less.SELECTED DRAWING: Figure 7

Description

The present invention relates to a racket used for tennis and the like.

The tennis racket has a frame and a string. In the past, natural catgut was mainly used as a string. The raw material for natural gut is sheep intestine. The mainstream of strings in recent years is made of synthetic resin. Strings made of synthetic resin have excellent durability. Strings made of resin compositions based on polyester or nylon are widely used. A string in which polyester is used is disclosed in JP-A-2009-226107.

JP-A-2009-226107

Natural gut is excellent in shot feeling and resilience performance. However, natural gut is inferior in spin performance and control performance.

Nylon strings are excellent in shot feeling and resilience performance. However, nylon strings are inferior in spin performance and control performance.

The polyester string has excellent spin performance and control performance. However, the polyester string is inferior in shot feeling and resilience performance.

A main string and a cross string having a material different from the material of the main string can be used for the tennis racket. In this tennis racket, both the advantages of the main string material and the advantages of the cross string material can be met. However, the contribution of the main string to performance is large, and the contribution of the cross string to performance is small. Therefore, the advantages of the crossstring material are not fully exhibited.

A high tension region and a low tension region can be formed in this string by devising when the string is stretched on the frame. In this tennis racket, both the advantages of the high tension region and the advantages of the low tension region can be satisfied. However, when this tennis racket is used repeatedly, the tension in the high tension region gradually decreases, and the tension in the low tension region gradually increases. In a tennis racket after a change in tension occurs, the advantages of the high tension region and the advantages of the low tension region cannot be compatible with each other.

An object of the present invention is to provide a racket having an excellent balance of various performances.

The racket according to the present invention has a head and a face whose contour is formed by the head. This face has a plurality of first vertical threads, a plurality of second vertical threads, and a plurality of horizontal threads. The first vertical thread has specifications different from those of the second vertical thread.

Preferably, the first longitudinal thread has a material different from that of the second longitudinal thread.

The material of the first vertical thread may be a resin composition based on polyester, and the material of the second vertical thread may be a resin composition based on nylon.

The material of the first vertical thread may be a resin composition based on polyester, and the material of the second vertical thread may be natural gut.

The material of the first vertical thread may be a resin composition based on nylon, and the material of the second vertical thread may be natural gut.

The first vertical thread may have an elongation rate different from that of the second vertical thread. Preferably, the ratio (E1 / E2) of the elongation rate E1 of the first vertical thread to the elongation rate E2 of the second vertical thread is 48/52 or less or 52/48 or more.

The first vertical thread may have a tension different from that of the second vertical thread. Preferably, the ratio (T1 / T2) of the tension T1 of the first vertical thread to the tension T2 of the second vertical thread is 48/52 or less or 52/48 or more.

Preferably, the ratio (N1 / N2) of the number N1 of the first vertical threads to the number N2 of the second vertical threads is 2/8 or more and 8/2 or less.

Preferably, the first vertical thread is adjacent to one or two second vertical threads and the second vertical thread is adjacent to one or two first vertical threads.

Preferably, the first vertical threads and the second vertical threads are alternately arranged from the center of the face toward the outside in the width direction.

The racket according to the present invention has an advantage due to the first vertical thread and an advantage due to the second vertical thread.

FIG. 1 is a front view showing a racket according to an embodiment of the present invention. FIG. 2 is an enlarged exploded view showing a part of the racket of FIG. FIG. 3 is an enlarged view showing a part of the face of the racket of FIG. FIG. 4 is a schematic view showing the first main string of the racket of FIG. FIG. 5 is a schematic view showing the second main string of the racket of FIG. FIG. 6 is a schematic view showing the crossstring of the racket of FIG. FIG. 7 is a schematic view showing the first main string and the second main string of the racket of FIG.

Hereinafter, the present invention will be described in detail based on preferred embodiments with reference to the drawings as appropriate.

FIG. 1 shows a tennis racket 2. The tennis racket 2 has a frame 4, a grip 6, an end cap 8, a grommet 10, and a face 12. This tennis racket 2 can be used for hard tennis. In FIG. 1, the arrow X represents the width direction of the tennis racket 2, and the arrow Y represents the axial direction of the tennis racket 2.

The frame 4 has a head 14, two throats 16 and a shaft 18. The head 14 forms the contour of the face 12. The front shape of the head 14 is substantially elliptical. The major axis direction of the ellipse coincides with the axial direction Y of the tennis racket 2. The minor axis direction of the ellipse coincides with the width direction X of the tennis racket 2. One end of each throat 16 is continuous with the head 14. The throat 16 merges with another throat 16 in the vicinity of the other end. The throat 16 extends from the head 14 to reach the shaft 18. The shaft 18 extends from where the two throats 16 meet. The shaft 18 is formed continuously and integrally with the throat 16. The portion of the head 14 sandwiched between the two throats 16 is the yoke 20.

The frame 4 is hollow. The material of the frame 4 is a fiber reinforced resin. In the present embodiment, the matrix resin of the fiber reinforced resin is a thermosetting resin. A typical thermosetting resin is an epoxy resin. A typical fiber of a fiber reinforced resin is a carbon fiber. This fiber is a long fiber.

As shown in FIG. 2, the head 14 has a grommet groove 22. The grommet groove 22 is recessed from the outer peripheral surface of the head 14. As shown in FIG. 1, the grommet groove 22 is formed over substantially the entire circumference of the head 14 except for the yoke 20.

The head 14 further has a plurality of holes 24. Each hole 24 penetrates the head 14. A plurality of holes 24 are arranged on substantially the entire circumference of the head 14.

The grip 6 is formed by a tape wound around the shaft 18. The grip 6 suppresses the slip between the player's hand and the tennis racket 2 when the tennis racket 2 is swung. An end cap 8 is attached to the end of the grip 6.

As shown in FIG. 2, the grommet 10 has a base 26 and a plurality of pipes 28. The base 26 has a belt shape. Each pipe 28 is integrally formed with the base 26. The pipe 28 stands up from the base 26.

A typical material of the grommet 10 is a synthetic resin softer than the frame 4. The racket 2 may have a plurality of grommets 10. The grommet 10 may be separated from the grommet 10 adjacent thereto. The number of pipes 28 in each grommet 10 may be 1.

The grommet 10 is attached to the head 14. When the grommet 10 is attached to the head 14, the base 26 is housed in the grommet groove 22. A part of the base 26 may protrude from the grommet groove 22. When the grommet 10 is attached to the head 14, the pipe 28 penetrates the hole 24. One pipe 28 is passed through each hole 24.

FIG. 3 is an enlarged view showing a part of the face 12 of the tennis racket 2 of FIG. As shown in FIG. 3, the face 12 has a plurality of first vertical threads 30a, a plurality of second vertical threads 30b, and a plurality of horizontal threads 32. Each of the first vertical threads 30a is stretched on the head 14 along the axial direction (Y direction). The first vertical thread 30a intersects a plurality of horizontal threads 32. Each second vertical thread 30b is stretched on the head 14 along the axial direction (Y direction). The first vertical thread 30a intersects a plurality of horizontal threads 32. Each lateral thread 32 is stretched on the head 14 along the width direction (X direction). The horizontal thread 32 intersects a plurality of vertical threads. The face 12 is generally along the XY plane.

[string]
The tennis racket 2 has a first main string. The first main string 34 is shown in FIG. The first main string 34 is stretched in a zigzag manner on the head 14. The first main string 34 passes through a plurality of holes 24 (see FIG. 2). In other words, the first main string 34 passes through the plurality of pipes 28. One end 36 of the first main string 34 forms a knot. The other end 38 of the first main string 34 also forms a knot. A plurality of first vertical threads 30a are formed by the first main string 34. In the present embodiment, eight first vertical threads 30a are formed from one first main string 34. These first vertical threads 30a are arranged symmetrically with respect to the center in the width direction of the head 14. The tennis racket 2 may have a plurality of first main strings 34.

The tennis racket 2 has a second main string. The second main string 40 is shown in FIG. In FIG. 5, for convenience, the second main string 40 is shown by a dotted line. The second main string 40 is stretched in a zigzag manner on the head 14. The second main string 40 has passed through a plurality of holes 24 (see FIG. 2). In other words, the second main string 40 passes through a plurality of pipes 28. One end 42 of the second main string 40 forms a knot. The other end 44 of the second main string 40 also forms a knot. A plurality of second vertical threads 30b are formed by the second main string 40. In the present embodiment, eight second vertical threads 30b are formed from one second main string 40. These second vertical threads 30b are arranged symmetrically with respect to the center in the width direction of the head 14. The tennis racket 2 may have a plurality of second main strings 40.

The tennis racket 2 has a cross string. The crossstring 46 is shown in FIG. The cross string 46 is stretched in a zigzag manner on the head 14. The crossstring 46 passes through a plurality of holes 24 (see FIG. 2). In other words, the crossstring 46 passes through a plurality of pipes 28. One end 48 of the crossstring 46 forms a knot. The other end 50 of the crossstring 46 also forms a knot. A plurality of horizontal threads 32 are formed by the cross string 46. In the present embodiment, 19 lateral threads 32 are formed from one cross string 46. The tennis racket 2 may have a plurality of cross strings 46. The cross string 46 may be integrated with the first main string 34 (see FIG. 4). The cross string 46 may be integrated with the second main string 40 (see FIG. 5).

FIG. 7 shows the first main string 34 and the second main string 40. As described above, in the present embodiment, eight first vertical threads 30a are formed from the first main string 34, and eight second vertical threads 30b are formed from the second main string 40. Therefore, the number of vertical threads is 16. Since the hole 24 through which the first main string 34 is passed is selected and the hole 24 through which the second main string 40 is passed is selected, the second vertical thread 30b is the first vertical thread 30a on the face 12. Does not overlap with. The first vertical threads 30a and the second vertical threads 30b are alternately arranged from the center of the face 12 in the width direction to the outside.

[Vertical thread specifications]
The specifications of the first vertical thread 30a are different from the specifications of the second vertical thread 30b. Therefore, in this tennis racket 2, both the advantages of the first vertical thread 30a and the advantages of the second vertical thread 30b can be satisfied.

[1 Difference in material]
A typical difference in specifications is a difference in material. The case where the first vertical thread 30a is molded from the resin composition and the second vertical thread 30b is molded from another resin composition corresponds to the difference in material. Differences in the base polymer, differences in additives, differences in the amount of additives, and the like correspond to differences in the resin composition. The case where one vertical thread is molded from the resin composition and the other vertical thread is a natural gut also corresponds to the difference in material.

[1.1 Polyester and Nylon]
The material of the first vertical thread 30a may be a resin composition based on polyester, and the material of the second vertical thread 30b may be a resin composition based on nylon. The first vertical thread 30a has a small amount of deformation at impact with the ball. The first vertical thread 30a can contribute to spin performance and control performance. The second vertical thread 30b has a large amount of deformation at impact with the ball. The second vertical thread 30b can contribute to the repulsion performance and the shot feeling. In this tennis racket 2, spin performance, control performance, repulsion performance and shot feeling are balanced. The material of the second vertical thread 30b may be a resin composition based on polyester, and the material of the first vertical thread 30a may be a resin composition based on nylon.

[1.2 Polyester and natural catgut]
The material of the first vertical thread 30a may be a resin composition based on polyester, and the material of the second vertical thread 30b may be natural gut. The first vertical thread 30a has a small amount of deformation at impact with the ball. The first vertical thread 30a can contribute to spin performance and control performance. The second vertical thread 30b has a large amount of deformation at impact with the ball. The second vertical thread 30b can contribute to the repulsion performance and the shot feeling. In this tennis racket 2, spin performance, control performance, repulsion performance and shot feeling are balanced. The material of the second vertical thread 30b may be a resin composition based on polyester, and the material of the first vertical thread 30a may be natural gut.

[1.3 Nylon and Natural Gut]
The material of the first vertical thread 30a may be a resin composition based on nylon, and the material of the second vertical thread 30b may be natural gut. The amount of deformation of the first vertical thread 30a at impact with the ball is relatively small. The first vertical thread 30a can contribute to spin performance and control performance. The second vertical thread 30b has a relatively large amount of deformation at impact with the ball. The second vertical thread 30b can contribute to the repulsion performance and the shot feeling. In this tennis racket 2, spin performance, control performance, repulsion performance and shot feeling are balanced. The material of the second vertical thread 30b may be a resin composition based on nylon, and the material of the first vertical thread 30a may be natural gut.

[1.4 grade]
The grade of the base material of the first vertical thread 30a may be different from the grade of the base material of the second vertical thread 30b. For example, the material of the first vertical thread 30a may be a resin composition whose base material is polyester, and the material of the second vertical thread 30b may be a resin composition whose base material is another polyester. The polyester of the first vertical thread 30a and the polyester of the second vertical thread 30b may differ in raw materials, components, molecular weight, crystallinity, thermal history, processing history, and the like. The material of the first vertical thread 30a may be a resin composition whose base material is nylon, and the material of the second vertical thread 30b may be a resin composition whose base material is other nylon. The raw material, component, molecular weight, crystallinity, thermal history, processing history, etc. may differ between the nylon of the first vertical thread 30a and the nylon of the second vertical thread 30b.

[2 Growth rate]
Differences in materials can be embodied as differences in elongation. The elongation rate E1 of the first vertical thread 30a and the elongation rate E2 of the second vertical thread 30b are the elongation rates when each thread is pulled by a stress of 200 MPa. Elongation is measured by a tensile tester. This testing machine has a pair of chucks. A string is wound around each chuck. The test conditions are as follows.
Testing machine: SHIMADZU AG-Xplus 5kN
Chuck: SHIMADZU 5kN air capstan type
343-23325-30
Distance between chucks: 210 mm
Distance between gauge points: 150 mm
Tensile speed: 1 mm / sec
Plot interval: 100 msec
Environmental temperature: 25 ° C
Three measurements are performed for each string, and the intermediate value is used as the representative value.

[2.1 E1 <E2]
The elongation rate E1 of the first vertical thread 30a may be smaller than the elongation rate E2 of the second vertical thread 30b. The first vertical thread 30a has a small amount of deformation at impact with the ball. The first vertical thread 30a can contribute to spin performance and control performance. The second vertical thread 30b has a large amount of deformation at impact with the ball. The second vertical thread 30b can contribute to the repulsion performance and the shot feeling. In this tennis racket 2, spin performance, control performance, repulsion performance and shot feeling are balanced. From this viewpoint, the ratio (E1 / E2) is preferably 48/52 or less, more preferably 45/55 or less, and particularly preferably 43/57 or less.

[2.2 E1> E2]
The elongation rate E1 of the first vertical thread 30a may be larger than the elongation rate E2 of the second vertical thread 30b. The first vertical thread 30a has a large amount of deformation at impact with the ball. The first vertical thread 30a can contribute to the repulsion performance and the shot feeling. The second vertical thread 30b has a small amount of deformation at impact with the ball. The second vertical thread 30b can contribute to spin performance and control performance. In this tennis racket 2, spin performance, control performance, repulsion performance and shot feeling are balanced. From this point of view, the ratio (E1 / E2) is preferably 52/48 or more, more preferably 55/45 or more, and particularly preferably 57/43 or more.

[3 Differences in tension]
Another example of a difference in specifications is a difference in tension. The string is stretched on the head 14 in a tensioned state. The operator can adjust the tension T1 of the first vertical thread 30a and the tension T2 of the second vertical thread 30b. The first main string 34 is not integral with the second main string 40. Therefore, the tension of the second vertical thread 30b does not increase due to the decrease of the tension of the first vertical thread 30a. Further, the tension of the first vertical thread 30a does not increase due to the decrease of the tension of the second vertical thread 30b. Even if the tennis racket 2 is used repeatedly, the tension difference between the first vertical thread 30a and the second vertical thread 30b can be maintained.

[3.1 T1> T2]
The tension T1 of the first vertical thread 30a when stretched on the head 14 may be larger than the tension T2 of the second vertical thread 30b when stretched on the head 14. The first vertical thread 30a has a small amount of deformation at impact with the ball. The first vertical thread 30a can contribute to spin performance and control performance. The second vertical thread 30b has a large amount of deformation at impact with the ball. The second vertical thread 30b can contribute to the repulsion performance and the shot feeling. In this tennis racket 2, spin performance, control performance, repulsion performance and shot feeling are balanced. From this point of view, the ratio (T1 / T2) is preferably 52/48 or more, more preferably 55/45 or more, and particularly preferably 57/43 or more.

[3.2 T1 <T2]
The tension T1 of the first vertical thread 30a when stretched on the head 14 may be smaller than the tension T2 of the second vertical thread 30b when stretched on the head 14. The first vertical thread 30a has a large amount of deformation at impact with the ball. The first vertical thread 30a can contribute to the repulsion performance and the shot feeling. The second vertical thread 30b has a small amount of deformation at impact with the ball. The second vertical thread 30b can contribute to spin performance and control performance. In this tennis racket 2, spin performance, control performance, repulsion performance and shot feeling are balanced. From this viewpoint, the ratio (T1 / T2) is preferably 48/52 or less, more preferably 45/55 or less, and particularly preferably 43/57 or less.

The material of the first vertical thread 30a may be different from the material of the second vertical thread 30b, and the tension T1 of the first vertical thread 30a may be different from the tension T2 of the second vertical thread 30b.

[Differences in other specifications]
The thickness of the first vertical thread 30a may be different from the thickness of the second vertical thread 30b. The cross-sectional shape of the first vertical thread 30a may be different from the cross-sectional shape of the second vertical thread 30b. The surface roughness of the first vertical thread 30a may be different from the surface roughness of the second vertical thread 30b.

[N1 / N2]
The ratio (N1 / N2) of the number N1 of the first vertical threads 30a to the number N2 of the second vertical threads 30b on the face 12 is preferably 2/8 or more and 8/2 or less. In the tennis racket 2 in which this ratio (N1 / N2) is 2/8 or more, the advantages derived from the first vertical thread 30a are fully exhibited. From this point of view, this ratio (N1 / N2) is more preferably 3/4 or more, and particularly preferably 4/6 or more. In the tennis racket 2 in which this ratio (N1 / N2) is 8/2 or less, the advantages derived from the second vertical thread 30b are fully exhibited. From this point of view, this ratio (N1 / N2) is more preferably 7/3 or less, and particularly preferably 6/4 or less. In the embodiment shown in FIG. 7, the number N1 is 8 and the number N2 is 8. Therefore, the ratio (N1 / N2) is 1.0.

[Arrangement]
It is preferable that each first vertical thread 30a is adjacent to one or two second vertical threads 30b. It is preferable that each second vertical thread 30b is adjacent to one or two first vertical threads 30a. In this tennis racket 2, both the advantages of the first vertical thread 30a and the advantages of the second vertical thread 30b can be satisfied. When the first vertical thread and the second vertical thread are adjacent to each other, there is no other vertical thread between these vertical threads.

As described above, in the embodiment shown in FIG. 7, the first vertical threads 30a and the second vertical threads 30b are alternately arranged from the center in the width direction of the face 12 to the outside. Therefore, in this tennis racket 2, both the advantages of the first vertical thread 30a and the advantages of the second vertical thread 30b can be sufficiently satisfied.

In the embodiment shown in FIG. 7, there is one or two vertical threads having a large amount of deformation at the time of impact between the two vertical threads having a small amount of deformation at the time of impact. In other words, the distance between the two vertical threads, which have a small amount of deformation at impact, is sufficiently large. Therefore, a vertical thread having a small amount of deformation at impact can sufficiently bite into the ball. This tennis racket 2 is excellent in spin performance.

[Horizontal thread specifications]
The horizontal thread 32 may have the same specifications as those of the first vertical thread 30a. The horizontal thread 32 may have the same specifications as the specifications of the second vertical thread 30b. The horizontal thread 32 may have specifications different from the specifications of the first vertical thread 30a and different from the specifications of the second vertical thread 30b. The tennis racket 2 may have two types of horizontal threads 32 having different specifications from each other.

Hereinafter, the effects of the present invention will be clarified by Examples, but the present invention should not be construed in a limited manner based on the description of these Examples.

[Example 1]
A tennis racket having the structure shown in FIG. 1-7 was manufactured. The material of the first vertical thread is a resin composition based on polyester. The material of the second vertical thread is a resin composition based on nylon. The material of the horizontal thread is a resin composition based on polyester. The tension of the first longitudinal thread is 50 lb-force (lbf), the tension of the second longitudinal thread is 50 lb-force and the tension of the lateral thread is 50 lb-force.

[Example 2-8 and Comparative Example 1-6]
The tennis rackets of Examples 2-8 and Comparative Example 1-6 were obtained in the same manner as in Example 1 except that the use of each thread was as shown in Table 1-3 below.

[evaluation]
Each tennis racket had the player perform a rally. This player was made to evaluate the repulsion performance (flying), spin performance, shot feeling and control performance. The results are shown in Table 1-3 below. The larger the value, the more favorable the evaluation.

As is clear from Table 1-3, the tennis rackets of each embodiment have various performances balanced. From this evaluation result, the superiority of the present invention is clear.

The racket according to the present invention can be used in various sports such as soft tennis, squash, and badminton.

2 ... Tennis racket 4 ... Frame 10 ... Grommet 12 ... Face 14 ... Head 22 ... Grommet groove 30a ... First vertical thread 30b ... Second vertical thread 32 ...・ ・ Horizontal thread 34 ・ ・ ・ 1st main string 40 ・ ・ ・ 2nd main string 46 ・ ・ ・ Cross string

Claims (12)

It has a head and a face contoured by this head.
The face has a plurality of first vertical threads, a plurality of second vertical threads, and a plurality of horizontal threads.
A racket in which the first vertical thread has specifications different from the specifications of the second vertical thread. The racket according to claim 1, wherein the first vertical thread has a material different from that of the second vertical thread. The material of the first vertical thread is a resin composition based on polyester.
The racket according to claim 2, wherein the material of the second vertical thread is a resin composition based on nylon. The material of the first vertical thread is a resin composition based on polyester.
The racket according to claim 2, wherein the material of the second vertical thread is natural gut. The material of the first vertical thread is a resin composition based on nylon.
The racket according to claim 2, wherein the material of the second vertical thread is natural gut. The racket according to any one of claims 1 to 5, wherein the first vertical thread has an elongation rate different from that of the second vertical thread. The racket according to claim 6, wherein the ratio (E1 / E2) of the elongation rate E1 of the first vertical thread to the elongation rate E2 of the second vertical thread is 48/52 or less or 52/48 or more. The racket according to any one of claims 1 to 7, wherein the first vertical thread has a tension different from that of the second vertical thread. The racket according to claim 8, wherein the ratio (T1 / T2) of the tension T1 of the first vertical thread to the tension T2 of the second vertical thread is 48/52 or less or 52/48 or more. The racket according to any one of claims 1 to 9, wherein the ratio (N1 / N2) of the number N1 of the first vertical threads to the number N2 of the second vertical threads is 2/8 or more and 8/2 or less. The invention according to any one of claims 1 to 10, wherein the first vertical thread is adjacent to the first vertical thread of 1 or 2, and the second vertical thread is adjacent to the first vertical thread of 1 or 2. Racket. The racket according to claim 11, wherein the first vertical threads and the second vertical threads are alternately arranged from the center of the face to the outside in the width direction.

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